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Learn how to calculate surface enthalpy of Cu crystal with (100), (110), and (111) surfaces. Understand bond energy, atomic bonding, and surface visualization for accurate calculations.
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Calculate the surface enthalpy of Cu crystal, when the external surface is of {100}, (110}, {111} type. Solved Example Data for Cu: • Bond energy of Cu (BCu) = 56.4 KJ / mole of bonds • aCu = 3.61 Å
The difficult part of the calculation is the number of bonds broken per atom • In CCP Cu each atoms is bonded to 12 neighbours → for a surface atom some of these ‘bonds are broken’ • We shall visualize the formation of each of these three surfaces [(100), (110), (111)] in a different way to calculate the number of bonds broken per atom • When a cut is made to create two surfaces, the bonds in plane are intact, the bonds below are intact → only the bonds above the cut are broken • Note: the cut has to be made above or below the atomic layers!
(100) Atoms whose bonds are broken =4 Calculation of atoms/area is easy: in a area of a a there are 2 atoms Bonds in and below the plane are intact; bonds above the plane are broken
(110) In a area of 2a a there are 2 atoms Atoms whose bonds are broken = 5 Bonds in and below the plane are intact; bonds above the plane are broken
